Method for Reassigning Root Sequence Index and Apparatus Therefor

1. A method for a network management server to determine a root sequence index, the method comprising: determining whether to reassign a root sequence index of a cell managed by a base station based on a random access channel (RACH)-related statistical information including a ratio between a number of random access (RA) preamble signals transmitted by at least one terminal to the base station and a number of scheduled transmission messages transmitted by the at least one terminal to the base station; determining a root sequence index to be reassigned to the cell based on a number of handovers between the cell and neighbor cells thereof, in case that the root sequence index is determined to be reassigned; and transmitting the determined root sequence index to the base station.

2. The method of claim 1 , wherein the RACH-related statistical information comprises information associated with at least one of the number of RA preamble signals transmitted by the at least one terminal to the base station or the number of scheduled transmission messages transmitted by the at least one terminal to the base station.

3. The method of claim 1 , wherein determining the root sequence index to be reassigned to the cell comprises determining a root sequence index of a neighbor cell having a smallest number of handovers with the cell as the root sequence index to be reassigned to the cell.

4. The method of claim 1 , wherein determining the root sequence index to be reassigned to the cell comprises: summing the number of handovers of the neighbor cells having a same root sequence index; and determining the root sequence index to be reassigned to the cell based on the number of handovers of the neighbor cells whose number of handovers is summed or having a different root sequence index.

5. The method of claim 1 , wherein determining the root sequence index to be reassigned to the cell comprises determining the root sequence index to be reassigned to the cell from among root sequence indexes belonging to a root sequence index pool.

6. The method of claim 1 , wherein the number of handovers includes at least one of a number of successful network-controlled handovers between the cell and neighbor cells, or a number of successful terminal-based handovers between the cell and neighbor cells.

7. The method of claim 1 , wherein the base station broadcasts the determined root sequence index to terminals located in the cell.

8. The method of claim 1 , wherein the network management server includes a self-optimized network (SON) server.

9. A network management server capable of determining a root sequence index, comprising: a controller configured to: determine whether to reassign a root sequence index of a cell managed by a base station based on a random access channel (RACH)-related statistical information including a ratio between a number of random access (RA) preamble signals transmitted by at least one terminal to the base station and a number of scheduled transmission messages transmitted by the at least one terminal to the base station, and determine a root sequence index to be reassigned to the cell based on a number of handovers between the cell and neighbor cells thereof, in case that the root sequence index is determined to be reassigned; and a communication circuit configured to transmit the determined root sequence index to the base station.

10. The network management server of claim 9 , wherein the RACH-related statistical information comprises information associated with at least one of the number of RA preamble signals transmitted by the at least one terminal to the base station or the number of scheduled transmission messages transmitted by the at least one terminal to the base station.

11. The network management server of claim 10 , wherein the controller is configured to determine whether to reassign a root sequence index based on random access channel (RACH)-related statistical information associated with a random access procedure between a terminal located in the cell and the base station.

12. The network management server of claim 9 , wherein the controller is configured to determine the root sequence index of a neighbor cell having a smallest number of handovers with the cell as the root sequence index to be reassigned to the cell.

13. The network management server of claim 9 , wherein the controller is configured to: sum the number of handovers of the neighbor cells having a same root sequence index, and determine the root sequence index to be reassigned to the cell based on the number of handovers of the neighbor cells whose number of handovers is summed or having a different root sequence index.

14. The network management server of claim 9 , wherein the controller is configured to determine the root sequence index to be reassigned to the cell from among root sequence indexes belonging to a root sequence index pool.

15. The network management server of claim 9 , wherein the number of handovers includes at least one of a number of successful network-controlled handovers between the cell and neighbor cells, or a number of successful terminal-based handovers between the cell and neighbor cells.